/****************************************************************************** * * Copyright (C) 2015 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at: * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. * ***************************************************************************** * Originally developed and contributed by Ittiam Systems Pvt. Ltd, Bangalore */ /** ******************************************************************************* * @file * input.c * * @brief * Contains functions necessary for managing input buffers * * @author * ittiam * * @remarks * none * ******************************************************************************* */ /*****************************************************************************/ /* File Includes */ /*****************************************************************************/ /* System include files */ #include #include #include #include /* User include files */ #include "ih264_typedefs.h" #include "iv2.h" #include "ive2.h" #include "ih264e.h" #include "app.h" /*****************************************************************************/ /* Constant Macros */ /*****************************************************************************/ /*****************************************************************************/ /* Macros */ /*****************************************************************************/ /*****************************************************************************/ /* Function Definitions */ /*****************************************************************************/ /** ************************************************************************** * @brief read pic level metadata from a file ************************************************************************** */ IV_STATUS_T read_pic_info(app_ctxt_t *ps_app_ctxt, void *pv_pic_info) { IV_STATUS_T ret = IV_SUCCESS; WORD32 size, bytes; switch(ps_app_ctxt->u4_pic_info_type) { case 1: size = sizeof(ih264e_pic_info1_t); ps_app_ctxt->u4_pic_info_size = sizeof(ih264e_pic_info1_t); break; case 2: size = sizeof(ih264e_pic_info2_t); ps_app_ctxt->u4_pic_info_size = sizeof(ih264e_pic_info2_t); break; default: size = 0; break; } bytes = fread(pv_pic_info, 1, size, ps_app_ctxt->fp_pic_info); if(bytes != size) ret = IV_FAIL; return ret; } /** ************************************************************************** * @brief read mb level metadata from a file ************************************************************************** */ IV_STATUS_T read_mb_info(app_ctxt_t *ps_app_ctxt, void *pv_mb_info) { IV_STATUS_T ret = IV_SUCCESS; WORD32 num_mbs; WORD32 size; WORD32 bytes; num_mbs = ALIGN16(ps_app_ctxt->u4_wd) * ALIGN16(ps_app_ctxt->u4_ht); num_mbs /= 256; switch(ps_app_ctxt->u4_mb_info_type) { case 1: size = sizeof(ih264e_mb_info1_t) * num_mbs; ps_app_ctxt->u4_mb_info_size = sizeof(ih264e_mb_info1_t); break; case 2: size = sizeof(ih264e_mb_info2_t) * num_mbs; ps_app_ctxt->u4_mb_info_size = sizeof(ih264e_mb_info2_t); break; case 3: size = sizeof(ih264e_mb_info3_t) * num_mbs; ps_app_ctxt->u4_mb_info_size = sizeof(ih264e_mb_info3_t); break; case 4: size = sizeof(ih264e_mb_info4_t) * num_mbs; ps_app_ctxt->u4_mb_info_size = sizeof(ih264e_mb_info4_t); break; default: size = 0; break; } bytes = fread(pv_mb_info, 1, size, ps_app_ctxt->fp_mb_info); if(bytes != size) ret = IV_FAIL; return ret; } /** ************************************************************************** * @brief read input from a file ************************************************************************** */ IV_STATUS_T read_input(FILE *fp, iv_raw_buf_t *ps_raw_buf) { WORD32 i; if(IV_YUV_422ILE == ps_raw_buf->e_color_fmt) { WORD32 wd = ps_raw_buf->au4_wd[0]; WORD32 ht = ps_raw_buf->au4_ht[0]; WORD32 strd = ps_raw_buf->au4_strd[0]; UWORD8 *pu1_buf = ps_raw_buf->apv_bufs[0]; for(i = 0; i < ht; i++) { WORD32 bytes = fread(pu1_buf, sizeof(UWORD8), wd, fp); if(bytes != wd) { return (IV_FAIL); } pu1_buf += strd; } } else { WORD32 num_comp = 2; WORD32 comp_idx; if(IV_YUV_420P == ps_raw_buf->e_color_fmt) num_comp = 3; for(comp_idx = 0; comp_idx < num_comp; comp_idx++) { WORD32 wd = ps_raw_buf->au4_wd[comp_idx]; WORD32 ht = ps_raw_buf->au4_ht[comp_idx]; WORD32 strd = ps_raw_buf->au4_strd[comp_idx]; UWORD8 *pu1_buf = ps_raw_buf->apv_bufs[comp_idx]; for(i = 0; i < ht; i++) { WORD32 bytes = fread(pu1_buf, sizeof(UWORD8), wd, fp); if(bytes != wd) { return (IV_FAIL); } pu1_buf += strd; } } } return IV_SUCCESS; } /** ************************************************************************** * @brief write input to a file ************************************************************************** */ IV_STATUS_T dump_input(FILE *fp, iv_raw_buf_t *ps_raw_buf) { WORD32 i; if(IV_YUV_422ILE == ps_raw_buf->e_color_fmt) { WORD32 wd = ps_raw_buf->au4_wd[0]; WORD32 ht = ps_raw_buf->au4_ht[0]; WORD32 strd = ps_raw_buf->au4_strd[0]; UWORD8 *pu1_buf = ps_raw_buf->apv_bufs[0]; for(i = 0; i < ht; i++) { WORD32 bytes = fwrite(pu1_buf, sizeof(UWORD8), wd, fp); if(bytes != wd) { return (IV_FAIL); } pu1_buf += strd; } } else { WORD32 num_comp = 2; WORD32 comp_idx; if(IV_YUV_420P == ps_raw_buf->e_color_fmt) num_comp = 3; for(comp_idx = 0; comp_idx < num_comp; comp_idx++) { WORD32 wd = ps_raw_buf->au4_wd[comp_idx]; WORD32 ht = ps_raw_buf->au4_ht[comp_idx]; WORD32 strd = ps_raw_buf->au4_strd[comp_idx]; UWORD8 *pu1_buf = ps_raw_buf->apv_bufs[comp_idx]; for(i = 0; i < ht; i++) { WORD32 bytes = fwrite(pu1_buf, sizeof(UWORD8), wd, fp); if(bytes != wd) { return (IV_FAIL); } pu1_buf += strd; } } } return IV_SUCCESS; } /** ************************************************************************** * @brief allocate input buffers ************************************************************************** */ void allocate_input(app_ctxt_t *ps_app_ctxt) { WORD32 num_bufs; WORD32 luma_size = ps_app_ctxt->u4_wd * ps_app_ctxt->u4_ht; WORD32 chroma_size = luma_size >> 1; WORD32 pic_size = luma_size + chroma_size * 2; WORD32 num_mbs; WORD32 i; ih264e_ctl_getbufinfo_op_t *ps_get_buf_info_op = &ps_app_ctxt->s_get_buf_info_op; num_bufs = MAX(DEFAULT_NUM_INPUT_BUFS, ps_get_buf_info_op->s_ive_op.u4_min_inp_bufs); num_bufs = MIN(DEFAULT_MAX_INPUT_BUFS, num_bufs); num_mbs = ALIGN16(ps_app_ctxt->u4_max_wd) * ALIGN16(ps_app_ctxt->u4_max_ht); num_mbs /= 256; /* Memset the input buffer array to set is_free to 0 */ memset(ps_app_ctxt->as_input_buf, 0, sizeof(input_buf_t) * DEFAULT_MAX_INPUT_BUFS); for(i = 0; i < num_bufs; i++) { UWORD8 *pu1_buf = (UWORD8 *)ih264a_aligned_malloc(16, pic_size); if(NULL == pu1_buf) { CHAR ac_error[STRLENGTH]; sprintf(ac_error, "Allocation failed for input buffer of size %d\n", pic_size); codec_exit(ac_error); } ps_app_ctxt->as_input_buf[i].pu1_buf = pu1_buf; pu1_buf = (UWORD8 *)ih264a_aligned_malloc( 16, num_mbs * sizeof(ih264e_mb_info_t)); if(NULL == pu1_buf) { CHAR ac_error[STRLENGTH]; sprintf(ac_error, "Allocation failed for mb info buffer of size %d\n", (WORD32)(num_mbs * sizeof(ih264e_mb_info_t))); codec_exit(ac_error); } ps_app_ctxt->as_input_buf[i].pv_mb_info = pu1_buf; pu1_buf = (UWORD8 *)ih264a_aligned_malloc(16, sizeof(ih264e_pic_info2_t)); if(NULL == pu1_buf) { CHAR ac_error[STRLENGTH]; sprintf(ac_error, "Allocation failed for pic info buffer of size %d\n", (WORD32)sizeof(ih264e_pic_info2_t)); codec_exit(ac_error); } ps_app_ctxt->as_input_buf[i].pv_pic_info = pu1_buf; ps_app_ctxt->as_input_buf[i].u4_buf_size = pic_size; ps_app_ctxt->as_input_buf[i].u4_is_free = 1; } } /** ************************************************************************** * @brief free input buffers ************************************************************************** */ void free_input(app_ctxt_t *ps_app_ctxt) { WORD32 num_bufs; WORD32 i; num_bufs = MAX(DEFAULT_NUM_INPUT_BUFS, ps_app_ctxt->s_get_buf_info_op.s_ive_op.u4_min_inp_bufs); num_bufs = MIN(DEFAULT_MAX_INPUT_BUFS, num_bufs); for(i = 0; i < num_bufs; i++) { ih264a_aligned_free(ps_app_ctxt->as_input_buf[i].pu1_buf); ih264a_aligned_free(ps_app_ctxt->as_input_buf[i].pv_mb_info); ih264a_aligned_free(ps_app_ctxt->as_input_buf[i].pv_pic_info); } }